PROFESSIONAL STAFF
Pilot’s Guide
Engine Data Management
EDM-960
Primary
Copyright ( 2009-2011 J.P. Instruments, Inc.
All Rights Reserved
J.P. INSTRUMENTS INC.
Information: P. O. Box 7033
Huntington Beach, CA 92646
Factory: 3185-B Airway Ave.
Costa Mesa, CA 92626
(714) 557-3805 Fax (714) 557-9840
Printed in the United States of America Rev E 02-16
Table of Contents
Section 1 - Getting Started 1
Fuel Flow Computer Basics 2
Control Button Basics 2
Display Screen Basics 2
Remote Auxiliary Display Basics 3
RPM and MAP Display Basics 3
Linear Bar Graphs Display Basics 4
LeanFind Basics 5
Section 2 - Interpreting Data 6
Operation for each Phase of Flight 6
Typical Normal Measurements 8
Engine Diagnosis Chart 9
Section 3 - Displays and Controls 12
Control Buttons 12
RPM and MAP Displays 14
Scanner Displays 14
Remote Auxiliary Display 18
Hobbs Display 18
Dimming the Display 18
Section 4 - Operating Modes 19
Manual Mode 20
Section 5 - LeanFind 21
LeanFind Procedure—General Explanation 26
Expanded Leaning Procedures 30
Section 6 - Fuel Flow Operation 31
Fuel Management 31
Start Up Fuel 31
Start Up Fuel 32
Resetting ‘ USED’ 36
Trip Mode (Accumulate Trip Totalizer) 36
Scanner Fuel Flow Display Select 36
Section 7 - Alarms 37
Non-primary Alarm Priority 37
Section 8 - Memory and Data Download 38
Downloading Data from the EDM 38
Transferring data from the USB Flash Drive to a PC 39
Section 9 - First Time Setup and Customization 40
Adjusting the HP Constant for Rich of Peak Operation 47
Adjusting the MAP 48
Entering the K factor 52
Programming Trip Mode 53
Setting the GPS Com Format 54
Section 10 - Custom Key Card 54
Section 11 - Setting Fuel Calibration Points 55
Getting Started…Collecting Fuel Level Calibration Data 56
After you have collected your data… 57
Troubleshooting the EDM-960 60
Diagnostic Testing on Startup and During Flight 60
Diagnostic Messages 61
Section 12 - Appendices 62
Shock Cooling 62
Navigation Data Formats 63
Navigation Data Ports for GPS Comm 64
Interface connections to selected GPS models
EDM Config Editor
1. Overview 57
2. DISCLAIMER 66
3. Starting EDM930/960 Configuration Editor 67
4. Changing Gauge Layout 68
5. Removing Fuel Level Gauges from display 69
6. Replacing Gauges 71
7. Changing Gauge Markings 72
8. Gauge Details Screen 73
9. Gauge Range and Alarm Limits 74
10. Color Bands 75
11. Options 75
12. Modifying Aircraft Information 76
13. Change Number of Engine Cylinders 76
14. Changing fuel units 77
15. Changing Main Tank Size 78
16. Changing Channels Monitored 78
17. Changing Alarm Values 79
18. EDM Alarms Screen 79
19. Restoring EDM to a Previous Configuration 80
20. Restoring EDM to Factory Configuration 81
Section 13 -Technical Support 81
Index 83
QUICK REFERENCE GUIDE 87
EDM-960 SYSTEM DISPLAYS
EDM-960 Main display
Product Features
|Hands-free, automatic scanning |
|Lean Find( finds the first and last cylinder to peak with true peak detect—eliminates |
|false peaks |
|Displays both leaned temperature below peak and peak |
|Voltage monitoring with alarm (see AFMS) |
|Amperes (load or charge/discharge meter) |
|Programmable alarm limits |
|Exhaust Gas Temperatures (EGTs) to stable 1°F resolution |
|DIF low to high EGT with alarm |
|Shock cooling monitored on every cylinder |
|Fast response probes |
|Non-volatile long term memory |
|Records and stores data up to 30 hours |
|Post-flight data retrieval |
|Data retrieval software |
|Oil pressure |
|Oil temperature |
|Turbine inlet temperature, if applicable (optional) |
|Outside air temperature |
|Compressor discharge temperature (optional) |
|Carburetor temperature or induction temperature (optional) |
|Fuel pressure, if applicable |
|Fuel level Resistive or capacitive |
|Fuel Flow |
|Solid-state rotor fuel flow transducer |
|Fuel quantity in gallons, kilograms, liters, or pounds |
|Low fuel quantity alarm |
|Low fuel time alarm |
|GPS interface |
|Instantaneous fuel flow rate |
|Total amount of fuel consumed |
|Total fuel remaining |
|Time to empty at the current fuel flow rate |
|RPM and manifold pressure |
|Automatically calculates percent horsepower |
|History of extreme values during previous flight |
|Hobbs® timer |
|Dual ‘Remote Alarm Displays’ (RAD) |
| |
Getting Started
Important Note!
You must have the remote auxiliary display—RAD— installed on the instrument panel of your aircraft. This is required for FAA certification of the EDM-960 as a primary instrument. Upon start up, the RAD displays the make and model of you aircraft, which must be verified before you can rely on the EDM-960 for use as the primary engine instrument cluster. The RAD also will continuously notify you of any alarm conditions, regardless of whether you have cleared them on the EDM-960 display.
This is not an option!
This is a summary of basic operation. Detailed descriptions of all operations appear later in this Pilot’s Guide. Once you become familiar with the details of operation, we suggest you use the Quick Reference Guide (found in back of manual) for most commonly used functions.
EDM-960 primary instruments have preset alarm limits and cautionary ranges (user cannot change them) typically for the following measurements: oil temperature, oil pressure, fuel pressure, fuel quantity, cylinder head temperature, turbine inlet temperature, manifold pressure, and RPM. Your EDM-960 contains a custom Key Card. For Primary configurations, the Key Card activates the primary engine instrument abilities of your engine monitor.
Note: Fuel quantity gauges must be calibrated to the aircraft and will not be functional until the fuel calibration process has been performed.
1 Fuel Flow Computer Basics
The fuel flow computer tracks the fuel flowing to the engine and computes various values based on this. At installation, then each time you refuel the aircraft, you must inform the EDM about how much useable fuel is onboard. This is done via the REFUEL function. There are three ‘Quickset’ ways to do this:
1. Main 74.0 GAL: MAIN tanks are filled (no other fuel onboard).
2. Main + Aux 94.0 GAL: MAIN +AUX tanks are filled.
3. Adjust? 0.0 GAL: Partial fuel added to existing quantity.
See page 31 for expanded information on the refueling process.
2 Control Button Basics
Four operating buttons control all functions of the EDM. These buttons change labels depending on the current state of the EDM.
The term tap is used to denote pressing a button momentarily. The term hold is used to denote pressing and holding a button for five seconds or longer.
3 Display Screen Basics
The display screen is arranged into three sections. The top left is the RPM and MAP section. The bottom left is the Scanner® section. And the right side is the Linear Bar Graphs section. The instrument ranges and alarm limits are configured to match those of your aircraft when the EDM is set up as a Primary instrument.
4
5
6
7 Remote Auxiliary Display Basics
The Remote Alarm Display ‘RAD’ provides alarm display, RPM and MAP, and is located directly in front of the pilot. Upon power up, the RAD shows the Aircraft model, engine type and declares instrument status: ‘Primary’ (if applicable). Before each flight, confirm that it matches your aircraft requirements.
8 RPM and MAP Display Basics
The upper semicircular bar graph shows the MAP (Manifold Pressure) and the lower semicircular bar graph shows the RPM (Revolutions per Minute). Operations exceeding red line cause the digital value to turn red.
Percent horsepower is displayed digitally below each MAP digital readout.
9 Linear Bar Graphs Display Basics
The Bar Graphs section contains seven dedicated bar graphs with digital display organized as shown to the right. Pointers move up and down for each engine in response to value changes and digital readouts turn red when exceedances occur.
Note: functions displayed in this example may differ from your EDM.
Scanner® Display Basics
The EDM Scanner section is located in the lower left area of the screen. It consists of a graphical display of EGT and CHT (and TIT if so equipped) and a digital display that automatically scans the various parameters. You can select Manual Mode by tapping STEP to lock onto the parameter of interest. To return to Automatic scan mode, tap LF followed by tapping STEP.
10 Lean Find Basics
Simply pre-lean, tap the LF button (Lean Find) and begin leaning. The EDM will assist you in finding the first cylinder to peak. This example is for Rich of Peak. See page 21 for a more detailed description of leaning.
1. Establish cruise at approximately 65 to 75% power and pre-lean the mixture to 50°F estimated rich of peak EGT on any cylinder.
2. Wait about 30 seconds, then tap the LF button.
3. Begin leaning the mixture smoothly without stopping. Turn the Vernier about ¼ turn per second; retract the non-Vernier or quadrant lever so that EGT rises about 10°F per second.
4. Stop leaning when you see LEANEST for two seconds, followed by—for example— EGT1520 FF13.8. The EGT number is the current temperature of the first EGT to peak and the FF number is the current fuel flow.
5. Now tap the PEAK button to display the EGT difference from peak which is very useful for setting desired degrees below peak.
6. Slowly enrich the mixture noting that the EGT difference diminishes as EGT climbs back to peak, followed by it going minus again. Stop enriching at the desired EGT difference (such as ‘EGT -75’).
7. You can also see what the peak EGT was by holding the PEAK button.
8. Tap STEP to exit the Lean Find Mode.
Interpreting Data
1 Operation for each Phase of Flight
(Worth adding to your run-up checklist.)
|[pic] |Suggested setup: |
|Engine Run-Up |Set engine to run-up RPM |
| | |
| |Normalize view |
| |Manual mode |
| | |
| |Verify: |
| |uniform rise of about 50°F in all EGTs in single magneto operation. |
| |uniform rise of EGTs with application of the mixture control. |
| | |
| |Be alert for: |
| |unusually low voltage (see AFMS) |
| |cold OIL and normal oil pressure |
| |abnormally high CHT |
| |large drop in EGT on one cylinder in single magneto operation—may be |
| |fouled spark plug. |
|[pic] |Suggested setup: |
|Take-Off, Climb, |Standard view |
|and Full Throttle |Automatic mode |
|Operations |Verify: |
| |EGTs and CHTs consistent with past climbs. EGTs should be in the 1100 to |
| |1300°F range (100° to 300°F cooler than cruise) due to fuel cooling. |
| |Be alert for: |
| |high EGT in one cylinder, 300°F above the others may indicate plugged injector|
| |or leaking manifold gasket on a carbureted engine. At high density altitude an|
| |overly rich mixture can significantly reduce engine power. |
| |If all EGT columns go off scale to the top of the column, be sure you are not |
| |in Normalize view, as indicated by the symbol NRM above the Scanner® section. |
| |After the engine is warmed up, use Lean Find to lean the mixture. |
| | |
|[pic] | |
|Cruise |Suggested setup: |
| |Normalize view |
| |Automatic mode |
| |Be alert for: |
| |uneven EGTs (injected engines). Make fine adjustments to throttle, then RPM, |
| |then mixture to level the display columns. |
| |abnormal patterns of EGTs and CHT. (see Engine Diagnosis Chart on page 9). |
| | |
|[pic] |Suggested setup: |
|Descent |Standard view |
| |Manual mode |
| |Be alert for: |
| |CLD: shock cooling alarm is set to -60°F. Average cool rates of -40°F/minute |
| |to -50°F/minute are normal, depending on the engine size. |
2 Typical Normal Measurements
The following chart lists typical normal measurement values that you will observe for most general aircraft engines. Your particular engine’s ranges may not fall within these values.
Measurement Typical Range Comments
|EGTs in Cruise |1350°F |under 200 HP engines |
| |1550°F |high performance engines (Note: EGT should|
| | |drop 200°F when full throttle is applied) |
|EGT span (DIF) |70 to 90°F |fuel injected engines |
| |120 to 150°F |carbureted engines |
|TIT |1600°F average | |
|CHT |350°F (OAT 60°F) |normally aspirated engines |
| |410°F |turbocharged engines |
|CHT Span |50 to 70°F |100° with gasket probes |
|Oil T |200°F |oil cooler thermostat opens at 180°F |
|OIL P |30 to 60 psi |varies with aircraft type |
|FUEL P (injected) |14 to 18 psi |varies with aircraft type |
|FUEL P (carbureted) |0.5 to 8 psi |varies with aircraft type |
|Shock cooling* |-40°/minute |tightly cowled engines |
| |-55°/minute |Bonanza |
| |-200°/minute |helicopter |
* Maintain a cooling rate magnitude of less than -50°/minute. You will find that the cylinder with the greatest shock cooling will shift from front cylinders (during climb out) to the rear cylinders (during descent ).
Engine Diagnosis Chart
The following chart will help you diagnose engine problems in your aircraft (note: only one engine is shown).
|Display |Symptom |Probable |Recommended Action |
| | |Cause | |
|[pic] |TIT ~100° higher |This is normal | |
| |than EGTs | | |
|[pic] |75° to 100° EGT rise|Spark plug not firing due |Enrich mixture to return |
| |for one cylinder |to fouling, faulty plug, |EGT to normal. Have plugs |
| |during flight |wire or distributor. |checked. |
|[pic] |EGT Increase or |Improper timing: high EGT |Check EGT for each magneto|
| |decrease after |( retarded ignition; low |to determine any uneven |
| |ignition maintenance|EGT ( advanced ignition. |timing. |
|[pic] |Loss of EGT for one |Stuck valve. Other |Have valve train checked. |
| |cylinder and Engine |cylinders are okay. | |
| |rough | | |
|[pic] |Loss of EGT for one |Failed probe |Swap probes to determine |
| |cylinder and no |or |if probe |
| |digital EGT and/or |failed wire harness. |or wire harness is bad. |
| |bad probe message. | | |
Continued:
|Display |Symptom |Probable |Recommended Action |
| | |Cause | |
|[pic] |Decrease in EGT for |Intake valve not opening |Have valve lifter or |
| |one cylinder |fully; faulty valve |rocker arm checked. |
| | |lifter. | |
|[pic] |Increase in DIF at |Low compression (blow by) |Check compression. |
| |low RPM |in cylinder | |
|[pic] |EGT and CHT not |Normal for carbureted |Check injectors and plugs.|
| |uniform |engines. Dirty fuel | |
| | |injectors or fouled plugs.| |
|[pic] |Decrease in EGT for |Decreased induction |Check for change in |
| |all cylinders |airflow. Carb or induction|manifold pressure. |
| | |ice. | |
|[pic] |Slow rise in EGT. |Burned exhaust valve. CHT |Have compression checked. |
| |Low CHT |is low due to low power | |
| | |output. | |
|[pic] |High CHT on |Obstruction under cowling.|Check for improper |
| |cylinders on one | |installed baffling, cowl |
| |side of engine | |flap misalignment or bird |
| | | |nests. |
Continued:
|Display |Symptom |Probable |Recommended Action |
| | |Cause | |
|[pic] |Rapid rise in CHT of|Detonation. |Reduce power. |
| |one cylinder | | |
|[pic] |Sudden off scale |Pre-ignition - > |Full rich & reduce power. |
| |rise for any or all | | |
| |cylinders | |Change to Standard view |
| | |Normalize view - > | |
| | | |Check probes |
| | | | |
| | |or failed probes - > | |
|(no picture) |Loss of peak EGT |Poor ignition or vapor in |Have magneto tested. |
| | |fuel injection system. | |
|(no picture) |Decrease in peak or |Detonation. Usually the |Enrich mixture, reduce |
| |flat EGT response to|result of 80 Octane fuel |power and re-lean mixture.|
| |leaning process |in 100 Octane engine. |Repeat to find power |
| | | |setting where normal peak |
| | | |is obtained or run rich. |
|[pic] |Below 10,000 ft. |Weak or defective |Apply booster pump. If |
| |full throttle causes|mechanical fuel pump. |EGTs drop, replace fuel |
| |EGTs to rise | |pump. |
Displays and Controls
The EDM monitors engine temperatures, pressures and voltages, assists in adjusting the fuel/air mixture, and helps diagnose engine malfunctions. There are multiple components of the user interface:
1. Four front panel operating buttons below the bottom of the display.
2. RPM and MAP display in the upper left corner of the display
3. Scanner analog display including cylinder number and index square in the lower left corner of the display
4. Scanner digital display for numeric readouts and messages at the bottom left
5. Bar graph displays on the right half of the display
1 Control Buttons
Four operating buttons control all functions of the EDM. These buttons may change labels depending on the current operating mode of the EDM. The term tap is used to denote pressing a button momentarily. The term hold is used to denote pressing and holding a button for five seconds or longer. Button layout is shown below:
1 1st Button
6. In the Automatic mode, tapping the STEP button stops Scanner auto-sequencing and changes to Manual mode. Each tap of the STEP button then displays the next measurement in the sequence. Holding the STEP button sequences in reverse order.
7. In the Lean Find mode tapping the EXIT button will terminate the Lean Find mode and change to the Automatic mode.
8. In the Program mode tapping the NEXT button will advance to the next item.
2 2nd Button
9. In Automatic or Manual modes, tapping the LF button will activate the Lean Find mode.
10. In the LF mode holding the LF button after peak EGT is found will display the peak EGT.
11. In Automatic or Manual modes holding the LF button for three seconds will toggle between Standard and Normalize (NRM) views.
12. In the programming mode, tapping the PLUS or MINUS button will allow you to edit a parameter value.
13. Holding LF during power up will display the primary alarm limits after the self-test is complete.
3 1st and 2nd Buttons
14. Holding both the STEP and LF buttons simultaneously for five seconds will enter the pilot programming mode.
15. Just after entering Lean Find Mode (but before any EGT has risen), holding both First and Second buttons for five seconds will toggle between LOP or ROP leaning modes.
16. Tapping both the STEP and LF buttons simultaneously in Manual mode toggles to ‘include’ or ‘exclude’ the displayed non-primary measurement from the Automatic mode. Note: Measurements are never excluded from the Manual mode.
4 3rd Button
17. Tapping DIM (brightness decreases) or holding DIM (brightness increases) allows decrease or increase brightness respectively. Hold on start-up to enter fuel level table
5 2nd and 3rd Buttons
18. Holding both the LF and DIM buttons simultaneously will display the Hobbs readings. Tap button labeled NEXT to see additional information screens.
6 4th Button (ALL/EGT/FF)
19. Select what is shown during Scanner auto-sequence. Choices are ALL, EGT or FF. Highlighted one is what is active. Hold on start-up to enter fuel level readings.
2 RPM and MAP Displays
The upper left side of the display shows RPM above the MAP. The arcs represent the analog values. Percent horsepower is shown below the MAP readouts.
3 Scanner Displays
4
Scanner EGT and CHT Analog Bar Graph
The height of each column represents an EGT or CHT or TIT (if installed) temperature. The graph resolution depends on the programmed span between the top and bottom of the range marks. Note: when in certain modes, such as leaning or normalize, the EGT resolution will temporarily be finer.
Cylinder Numbers and Index
Just below the bar graph columns are numbers identifying the respective cylinder. If TIT is installed, it is labeled by the letter T underneath. A square ‘Cylinder I.D. Index’ surrounding a number indicates what cylinder is currently selected and relates to the digital display.
Scanner Digital Display
Located under the Scanner bar graph area is the alphanumeric display. It displays alphanumeric values for different parameters as well as status and alarm messages.
Normalize / Standard View
To toggle between Standard and the Normalize views, hold the LF button for three seconds until the NRM icon toggles on or off. Note: Normalize cannot be activated while in Lean Find mode.
1. Standard view (when the NRM icon is not lighted): the EGT represent absolute temperature. The top of the columns indicate absolute temperature relative to the adjacent range mark temperature scale. A maximum height column depicts the temperature at the top of the range mark scale (or more), while no column represents the temperature at bottom of the range mark scale (or less). The Standard view permits comparison of EGTs across all cylinders.
2. Normalize view (when the NRM icon is lighted): the EGT represent the difference in temperature from the mid-point of the range mark scale. When you change to the Normalize view, all EGT columns are initially normalized to the mid-point for deviation trend analysis. Any changes are shown as an increase or decrease relative to the mid-point, thus giving an instantaneous indication that an EGT has deviated. You normally use normalize in level cruise, but it is also useful during steady state run-ups. Note: A common misapplication is to be in the Normalize view and then change power setting. This causes all columns to go off scale, high or low. Select Standard view before changing power or altitude.
Temperature Units (°F or °C)
The EDM can display engine temps in either °F or °C (Fahrenheit or Celsius). In Primary configurations, this is set to the same units as the configuration the aircraft was originally certified to.
Linear Gauge Display Section
The linear bar graphs are arranged in a three by three matrix on the right half of the display. A typical layout is depicted here (Note: your actual configuration may vary). Typical functions that can be displayed are:
• Oil temperature
• Oil pressure
• Fuel pressure
• Bus voltage
• Amps (charge/discharge shown)
• OAT
• Fuel flow
• Left tank fuel quantity *
• Right tank fuel quantity *
* The fuel quantity gauges will not be functional until the fuel calibration process has been completed.
The range of the bar graphs depends on the programming. Range, redlines and/or limits are typically set to match the original aircrafts gauge markings. These are locked for Primary installations, however non-primary gauges can be user modified, using the ‘EDM Config’ which is currently available through the front panel buttons. Editing of Gauge Layout requires EDM Software version 1.20.489 or later. Note: Amps can operate either as a charge/discharge or load meter, depending on programming. For charge/discharge, the center of the bar is zero and the top and bottom are maximum charge and discharge, respectively.
5 Remote Auxiliary Display
See the important note on page 1 regarding the RAD.
The remote auxiliary display ‘RAD’ provides redundancy and allows positioning a smaller display directly in front of the pilot. Upon power up the RAD displays the EDM’s programmed configuration (aircraft make and model and primary status). Confirm that it matches your aircraft configuration before using the instrument. This auxiliary display will normally show RPM and MAP, but will display a blinking alarm message, duplicating the alarm indication of the EDM. For example, low calculated fuel remaining of 7.7 gallons would show:
6
7
8 Hobbs Display
Holding both the LF and DIM buttons simultaneously will display the Hobbs times similar to the example below:
10 Dimming the Display
Automatic dimming is provided to dim both the panel display and the remote alarm display. You can manually adjust brightness by tapping (decrease brightness) or holding (increase brightness) the DIM button.
Operating Modes
The EDM has four basic operating modes: Automatic, Manual, Program and Lean Find. Lean Find is described in the next section; Program mode is described on page 40, ‘First Time Setup and Customization’. When you first turn on the power the EDM starts in the Manual mode, but will enter the Automatic mode after a few minutes. The Automatic mode provides you with engine monitoring information for the majority of flight conditions. To optimize the mixture, use the Lean Find mode. To display specific parameters, use the Manual mode. In either Automatic or Manual modes, the display always shows the Scanner bar graphs for EGT and CHT for each cylinder and TIT (if so equipped).
Automatic Mode
To activate Automatic Scanner Mode, just tap the LF button, then tap the STEP button. In the Automatic mode the EDM changes which measurement is displayed every four seconds (factory default is ‘Auto Scan Rate 4’), however you can change this rate in the Program Mode. A setting of zero disables auto scanning altogether.
Some non-primary measurements can be excluded from the Automatic mode: tap STEP to enter the Manual mode. Tap STEP repeatedly to index to the measurement you want to exclude. Then tap both the STEP and LF buttons simultaneously. Excluded measurements display a decimal point before the measurement name. For example:
Included: 1540 CDT Excluded: 1540 ●CDT
Tapping the STEP and LF buttons simultaneously will toggle back and forth between include and exclude. Note: All measurements are always checked for alarm conditions every second.
20. Every time you turn on the EDM, all measurements are reset to be included.
21. All installed measurements are always displayed in the Manual mode. Exclusion only applies to the Automatic mode.
1 Manual Mode
To activate Manual Mode, just tap the STEP button. Use Manual mode to lock on one measurement, such as your hottest CHT. Select desired parameter by tapping STEP button. Return to Automatic mode by tapping LF and then tap STEP. Disable Automatic mode by setting ‘Auto Scan Rate 0’. See Pilot Programming.
1 Scan Sequence Example
|Measurement |Example |Comments |
|EGT, CHT |1340 EGT 1410 |Square indicates cylinder |
| |376 CHT 421 | |
|TIT, Turbine Inlet | |Turbine #1 |
|Temperature |1370 TIT 1350 | |
|Shock Cooling |CLD |Square indicates fastest cooling cylinder |
| |-22 °/Min -23 | |
|Difference between hottest|EGT |Square indicates most widely deviating |
|and coldest EGT |30 Span 20 |cylinder |
|Compressor Discharge | |Into intercooler |
|Temperature |300 CDT 295 | |
|Carburetor Temperature | |Not available when CDT is installed |
| |-22 CRB -20 | |
|Induction Air Temperature | |Out of intercooler |
| |125 IAT 120 | |
|Fuel Remaining |Calculated |In gallons, liters, pounds or kilograms |
| |REM 83.6 GAL | |
|Fuel required to next GPS |Total |Present with GPS interface valid signal and |
|WPT or Destination |REQ 25.9 GAL |way point |
|Fuel Reserve at next GPS |Calculated |Present with GPS interface valid signal and |
|WPT or Destination |RES 11.3 GAL |way point |
|Nautical Miles per Gal |AIRCRAFT |Present with GPS interface and valid signal |
| |ECON 04.8 MPG |or MPK, MPL, MPP |
|Time to Empty |Calculated |Hours: minutes remaining at current fuel burn|
| |ENDUR 02:25 |rate. |
|Total Fuel Flow |TOTAL |Total fuel burn rate |
| |FF 29.5 GPH | |
|Fuel Flow |Fuel |Individual engine fuel burn rate |
| |14.9 GPH 14.6 | |
|Total Fuel Used |Total |Since last refueling or trip total. |
| |USED 76.9 GAL | |
|Fuel Used |GAL |Since last refueling or trip total. |
| |38.4 USED 38.5 | |
|Ground Speed |AIRCRAFT |Ground speed from GPS (Present with GPS |
| |GS 140 KTS |interface) |
|Charge Amps |Load | |
| |12 AMPS 10 | |
Lean Find
The EDM supports two methods of leaning; ROP (Rich Of Peak) and LOP (Lean Of Peak). Note: on power-up, the unit defaults to Rich Of Peak mode, but is easily changed to Lean Of Peak mode. During traditional Rich Of Peak leaning, you’ll finalize the mixture to about 20° to 80° rich of peak (depending on engine operating requirements). However, with the advent of closely balanced injectors (such as GAMI), it is possible to set the mixture lean of peak—thus saving fuel and running the engine cooler. Both Rich Of Peak and Lean Of Peak processes are described in detail in this manual.
Upon reaching cruise configuration, use the Lean Find mode to identify the correct cylinder to reach peak EGT (for Rich Of Peak this is the FIRST to peak, for Lean Of Peak this is the LAST to peak). To change from one method to the other, right after activating Lean Find, hold STEP and LF and the other method will be momentarily shown: ROP (Rich Of Peak) or LOP (Lean Of Peak). Release buttons after other method appears.
The illustration below shows the various relationships between the mixture, fuel flow and engine power:
The following pages provide step by step guidelines in leaning your engine, for both rich of peak and lean of peak modes:
Rich of Peak leaning is as simple as:
A. Pre-lean your mixture.
B. Tap the LF button (verify ROP appears).
C. Lean mixture until LEANEST flashes (peak found).
D. Enrichen to the desired value ‘Rich Of Peak’.
|R |Procedure |Scanner Example (one |Comments |
| | |engine) | |
|1 |Establish cruise at 65 to 75%| | |
| |power. | | |
|2 |Pre-lean the mixture to 50°F | EGT 1490 |* See ‘Pre-leaning’ page 23. |
| |estimated rich of peak on any|CHT 370 | |
| |EGT: _________°F. | | |
|3 |Wait one minute | |Let engine stabilize. |
|4 |Tap the LF button |ROP |Start Lean Find (if LOP appears hold |
| | | |STEP & LF until ROP appears) |
|5 |Lean the mixture at approx. |EGT 1520 |Flashing cylinder I.D. box identifies |
| |10°/second without pausing. |FF 13.8 |that EGT increased at least 15°F. EDM |
| | | |is now looking for first EGT to peak. |
|6 |Stop leaning when |EGT 1545 |Flashing cylinder I.D. box AND its |
| |a column begins flashing. You|FF 12.4 |column indicates leanest cylinder. Due |
| |will see leanest for one | |to thermal inertia this will usually be|
| |second, followed by: | |about -15°F down the lean side of peak.|
|7 |If you hold PEAK, the values |EGT ↑1560 |Captured peak EGT value and peak FF are|
| |of EGT and FF when peak was |FF 12.9 |displayed. |
| |found are displayed. | | |
|8 |If you tap PEAK, the |EGT∆ -90 |A useful mode for setting mixture the |
| |difference from peak EGT is |FF 13.4 |desired degrees rich of peak - no math |
| |shown. Tap again to return to| |required! NOTE: Unit remembers view |
| |the peaked EGT value. | |last used. |
|9 |Slowly enrich the mixture |EGT 1560 |[pic] |
| |noting that EGT is returning |FF 12.9 | |
| |to peak. Stop enriching at | | |
| |the desired EGT. ‘Peak’: best|EGT 1460 | |
| |Econ. ‘ROP’ target: best |FF 13.6 | |
| |power. | | |
| | |(100º Rich of peak) | |
Lean of Peak leaning is as simple as:
A. Pre-lean your mixture.
B. Tap the LF button (verify LOP appears).
C. Lean mixture until RICHEST flashes (peak found).
D. Enrichen to the desired value ‘Lean Of Peak’.
|L |Procedure |Scanner Example (one |Comments |
| | |engine) | |
|1 |Establish cruise between 65 to | | |
| |75% power. | | |
|2 |Pre-lean the mixture to 50°F |EGT 1490 |* See ‘Pre-leaning’ page 23. |
| |estimated rich of peak on any |CHT 370 | |
| |EGT: _________°F. | | |
|3 |Wait one minute | |Let engine stabilize. |
|4 |Tap the LF button |LOP |Start Lean Find (if ROP appears, hold |
| | | |STEP & LF until LOP appears) |
|5 |Lean the mixture at approx. |EGT 1520 |Flashing cylinder I.D. box identifies |
| |10°/second without pausing. |FF 13.8 |the hottest EGT and that an EGT has |
| |(cylinder I.D. box flashes when| |increased at least 15°F which arms the|
| |a EGT rises 15°F) | |EDM to now look for first EGT to peak.|
|6 |After the first EGT peaks, you |EGT∆ -17 |When bars come from the top down, the |
| |will see leanest for one second|FF 12.4 |cylinder I.D. box identifies the |
| |and bars coming from the top | |first EGT that peaked (leanest). |
| |down. Continue leaning. | |Continue leaning. |
|7 |When RICHEST appears, fine tune|EGT∆ -45 |[pic] |
| |the delta EGT to the desired |FF 11.6 | |
| |degrees below ‘Peak’ (Lean of | | |
| |peak). | | |
|8 |If you hold PEAK, the peak EGT |EGT↑ 1560 |Captured peak EGT value and the FF |
| |recorded will be displayed |FF∆ 0.6 |spread between richest and leanest |
| |along with FF spread. | |cylinders. |
1
2 Lean Find Procedure—General Explanation
Lycoming and Continental have established specific restrictions on leaning that must be followed, such as percent power, climb leaning, and TIT limits. Lycoming recommends operation at peak EGT at 75% or less power only. Continental recommends operation at peak EGT at 65% or less power only. This guide does not supersede specific recommendations of the engine or airframe manufacturer. It is your responsibility to know your aircraft’s limitations.
Pre-leaning: The leaning process typically begins with ‘pre-leaning’ by leaning the mixture until you see the hottest cylinder peak. Ensure all cylinders are operating rich of peak EGT (note: you can optionally activate ‘Normalize’ - hold LF until NRM appears - making it easier to confirm all EGT’s decrease). Now enrichen the mixture to achieve a 50° drop on the hottest EGT. Insure that all EGT’s decrease. Wait one minute to allow temperatures to stabilize.
Lean Find-Initiation: Initiate the EDM leaning mode by tapping the LF button. Note that the EDM displays its current leaning mode momentarily: ‘ROP’ for operating Rich of Peak or ‘LOP’ for operating Lean of Peak. To change, simply hold STEP and LF until the display shows the other mode. The EDM is now waiting for a 15° rise on any EGT (this feature significantly reduces false peaks). Lean the mixture without pausing to achieve about a 10 deg per second change. With a Vernier mixture control, turn the knob about a quarter turn every second. With a non-Vernier or quadrant mixture control, lean slowly and smoothly about 1/16 inch every five seconds (note: leaning accurately with a quadrant system is difficult due to its mechanical linkage).
Lean Find-Activation: When a 15° EGT rise occurs, Lean Find activates (indicated by a cylinder I.D. box flashing over the number of the hottest EGT). Remember: The Lean Find mode is not active until a cylinder I.D. box is flashing. To show the progress of the leaning process, the EDM now displays the hottest EGT in the left side of the digital display and the fuel flow in the right side. This information allows you to observe the EGT behavior throughout the leaning process.
Lean Find - Rich Of Peak Detection: Eventually, one cylinder will reach peak before any of the other cylinders. The EDM will determine this automatically. The EDM will indicate success in finding a peak by displaying the word leanest for two seconds and flashing the peaked EGT column. The Scanner® Information Area will also display the current value for the peaked EGT and fuel flow value, for final adjustment of the mixture. The peak EGT and FF value when peak occurred is remembered by the EDM and can be displayed by holding the PEAK button.
Lean Find - Finalizing the Rich Of Peak Mixture: You may now enrichen the mixture to operate at peak or continue enriching to a value of your choice (typically between 50 to 100° rich of peak for best power), consistent with the procedures defined in your aircraft and/or engine manual. You can tap PEAK to see the current difference (delta) from the peak temperature. This is handy for finalizing mixture. Note: If you lean too much, the EGT will drop off on the lean side of peak. Enrichen if this occurs and set final mixture rich of peak. Tapping EXIT exits the lean find mode and automatic scanning resumes.
[pic]
Lean Find - Lean Of Peak Detection: Note: This mode should only be used when your engine is equipped with balanced fuel injectors. When using the Lean of Peak mode, you lean until all EGT’s decrease slightly below their respective peaks. The EDM has automatic peak detection and will sequentially indicate leaning progress. When the first EGT peaks, the word leanest appears and the cylinder I.D. box highlights the cylinder number. Each column successively drops as leaning continues. When the last column drops (last EGT peaks), Richest appears, and its respective column flashes momentarily. The last EGT to peak is the one you will use when setting the final mixture.
Lean Find - Finalizing the Lean Of Peak Mixture: The Scanner® Information Area displays the degrees below peak for the last (or richest) EGT to peak, giving you precise information necessary in setting the final mixture. Adjust the mixture to achieve the desired value below peak (using the digital EGT readout) or before engine roughness occurs. Caution: do not lean to the point where the engine runs rough. Note: the peak EGT value encountered during leaning can be recalled by holding the PEAK button. Tapping STEP exits the lean find mode and automatic scanning resumes.
The following illustrations show typical displays when the first EGT peaks and then the last EGT peaks. You finalize mixture on the ‘last to peak’ (right engine being leaned only).
[pic]
[pic]
Expanded Leaning Procedures
Lean Of Peak mode: During the ‘lean of peak’ process, the EDM hunts for the last cylinder to peak. This is because, ultimately, you want to have ALL cylinders operating on the lean side of peak. You will final adjust your mixture to this cylinder. To provide a unique graphical depiction during lean of peak operation, the columns become inverted after the first EGT goes just below peak. Each EGT column then originates from the top of the display and drops downward. As each subsequent EGT goes past peak, its column will begin falling. The columns length depicts how far the EGT has dropped below its original peak. In this mode, each segment is 5° F. You will continue to lean until the last EGT peaks (note: never lean to the point where the engine is running rough). When the last EGT peaks, its respective column will flash and the word Richest appears. The scanner digital readout will now show the current temperature difference from where peak EGT occurred and also the current fuel flow. Note: if you hold the LF button, the display will show the captured peak value of the ‘last EGT to peak’ and also the difference in fuel flow between the first and last to peak (also known as the GAMI Spread). This can be a good indication of how well your injectors are balanced (the smaller the FF difference, the better the injector balance). Tapping STEP exits the lean find mode and automatic scanning resumes.
Leaning Turbocharged Engines: The leaning process for turbocharged engines is by reference to the first EGT or TIT to reach peak. Therefore you should use the Rich Of Peak mode. The factory TIT red line may limit the leaning process, depending on flight conditions. TIT red line is generally 1650°F to 1750°F. If TIT exceeds red line (but not by more than 99°), the EDM will allow you to continue leaning for one minute before a TIT alarm activates, implying you should enrichen the mixture. NOTE: in some cases, TIT can read approximately 100°F hotter than the hottest EGT. This is because of unburned fuel in the exhaust igniting and is not necessarily abnormal behavior. The reduced size of the JPI Hastaloy-X-tip probes produce faster response and are more accurate than the massive factory installed probes. Therefore a JPI probe may read as much as 100°F higher than the factory installed probe. However, the certified factory-installed gauge must be obeyed as the limiting factor when adjusting your engine.
4
Fuel Flow Operation
1 Fuel Management
Without a means of measuring accurate fuel flow, you must rely on the aircraft fuel gauges or total time of flight. Aircraft fuel gauges are notoriously inaccurate (they are only required by the FAA to read accurately when displaying empty). Determining fuel consumption by multiplying time of flight by estimated flow rate is, at best, an approximation, and assumes a constant fuel flow rate for each phase of flight. However, the EDM Fuel Flow Option uses a small, turbine transducer that measures the fuel flowing into the engine. Higher fuel flow causes the transducer turbine to rotate faster which generates a faster pulse rate. Because the transducer turbine generates thousands of pulses per gallon of fuel, it can measure with high resolution the amount of fuel that flows into the engine. Prior to engine start you inform the EDM Fuel Flow Option of the known quantity of fuel onboard, it subsequently tracks all fuel delivered to the engine.
2 Start Up Fuel
On power-up, you will be prompted to enter any fuel you might have added to the aircraft (this process updates the REM and USD values). The EDM will flash REFUEL? . If you didn’t add any fuel, simply tap EXIT to quit, otherwise tap NEXT to pick one of the three quickset choices below:
Choice 1) MAIN 66.0 GAL : Tap SAVE to accept or NEXT for choice #2. This shortcut sets REM to the MAIN tank value (66 in this case) you set up in your fuel computer.
Choice 2) MAIN + AUX 82.0 GAL : Tap SAVE to accept or NEXT for choice #3. This shortcut sets REM to the sum of MAIN and AUX you set up in your fuel computer.
Choice 3) Adjust? + 0.0 GAL : Tap either ADD or REMOVE to adjust REM. Use when adding a partial amount of fuel. Tap SAVE to accept adjustment or NEXT to repeat REFUEL?.
1 NOTE: If you forgot to perform your EDM REFUEL before starting the engine, it can still be performed. The EDM will automatically subtract any burned fuel from the value you choose (not applicable to the ‘Adjust? + 0.0’ feature)
2 You are responsible for insuring that your usage of the REFUEL feature results in the EDM’s REM parameter showing the correct amount of usable fuel remaining onboard the aircraft.
The three examples, shown below, depict different aircraft tank configurations and how you can update your EDM after refueling your aircraft. These are meant to be general guidelines.
3
4
5 Resetting ‘ USED’
USED is automatically reset whenever you perform REFUEL on your EDM (except if TRIP mode = yes).
After filling your tanks and prior to engine start you should inform the EDM that the aircraft has been filled. In this case USED is automatically set to zero.
If you forgot and have already started the engine, and then you inform the EDM that tanks have been filled, then some fuel has already been used. Not to worry as the EDM will automatically set USED to this amount and also subtract it from the REM value, keeping the two values in balance.
To manually zero the amount of fuel USED at any time, manually STEP to display USED and then hold both DIM (button 3) and EGT/FF (button 4) until the display shows ‘.0 USED’ (this normally takes about five seconds).
6 Trip Mode (Accumulate Trip Totalizer)
Trip mode is typically used if you want to track the total fuel used over a multi-stop cross country. To have the USED parameter continuously accumulate total consumed fuel, set TRIP? Y. ‘Trip Mode’ is described in the ‘Program Mode section’. Note: typically, TRIP? is set to ‘N’ so that USED will be reset every time you fuel the aircraft
7 Scanner Fuel Flow Display Select
Button four selects three different Scanner filters - ALL, EGT or FF. Tapping this button will select the next choice (shown after the ‘/’ symbol):
• ALL/EGT: all installed parameters are shown in Scanner.
• EGT/FF: only the installed temperature (and battery voltage) parameters are shown in Scanner.
• FF/ALL: only fuel flow parameters are shown in Scanner.
Note: Scanner filter or mode selection does not affect Alarms or analog displays.
Alarms
Whenever a measured parameter falls outside of the normal allowed operating limits, i.e. goes beyond redline, the main display will blink an ALERT icon in red paired with that parameters current digital value and a flashing red label (i.e. CHT) will appear in the Scanner area and the RAD. For example, if CHT 2 is at 480, and redline is 460, it would be displayed as 480 CHT (CHT flashes in red). Other alarm examples are:
2780 RPM, 15 O-P, 34 F-P, 240 O-T.
Tapping the CLEAR button extinguishes the alert for ten minutes whereas holding the CLEAR button turns the alarm off for the remainder of the flight.
Primary alarm limits for each specific aircraft model are set by JPI in accordance with the Pilot Operating Handbook and/or TCDS and are not programmable by the pilot. These typically include some or all of the following measurements: CHT, CDT, O-T, O-P, F-P, GAL LEFT, GAL RIGHT, MAP, RPM, FF, IAT, CRB, and TIT. To view the alarm limits screen, hold button 2 during power up (or hold both buttons 2 & 3 during normal operation), tap NEXT until the list is displayed.
The primary functions for your installation are shown on the Primary label on the back of the instrument and are identical to those specified in the FAA Approved Airplane Flight Manual/Pilot’s Operating Handbook.
1 Non-primary Alarm Priority
Primary alarms will always have precedence over non-primary alarms. The typical non-primary alarm priorities are as follows:
Highest Lowest
MIN ( REM ( DIF ( CLD ( BUS H ( BUS L ( AMP
Memory and Data Download
The EDM compresses and records all displayed parameters once every six seconds (default) in Long Term Data Memory (note: you can change this rate to be 2 to 500 seconds). This data is retrievable by inserting a USB Drive into the jack on the front of the instrument and following the prompts. You can choose to retrieve ‘ALL’ the data stored in the EDM, or only the ‘NEW’ data recorded since your last retrieval. In either case, the selected data in the EDM is not erased. The data can later be viewed on EZTrends2, a PC program available from JPI or over the internet.
Recording typically begins when EGTs are greater than 500°F or RPM is greater than 500. The amount of data that the EDM can store will vary depending on how rapidly parameters change. The typical storage capacity is greater than 100 hours at a 6 second recording interval, but can vary depending on configuration. When the memory becomes full, the oldest data will be discarded to make room for the newest. All data are time-stamped. The EDM contains a real-time clock that may be set when you initially program your instrument. You may change the recording interval from 2 to 500 seconds, even in flight (when you change the interval in flight, the current flight file is closed and a new flight file is started at the new interval).
1 Downloading Data from the EDM
Downloading is a simple process. Follow the steps below:
a. With the EDM powered up, plug the USB flash drive into the EDM USB port.
b. Wait for the EDM display to show DOWNLOAD: NEW.
c. To download only the new data since the last download, tap the STEP button.
d. To download all data in the EDM, tap the CHANGE button to see DOWNLOAD: ALL, then tap STEP.
You will see a ‘progress indicator’ as the data is copied to the USB flash drive. DO NOT INTERRUPT THIS PROCESS.
2
e. When the download is complete the display on the EDM will show DONE and then return to normal operation.
f. Wait until the process is complete then remove the USB flash drive from the USB connector.
3 Transferring data from the USB Flash Drive to a PC
To transfer your data from the USB flash drive to your PC, follow these easy steps.
1. On your PC, start the EzTrends2 program.
2. Plug in the USB flash drive into an available USB port.
3. In EzTrends2, select the Move and Plot Data from Memory Stick option.
4. In the displayed list, find the USB flash drive and double click it.
5. Select the file you wish to plot and then select the flight in that file.
Refer to the EzTrends2 manual for details on how to use EzTrends2.
First Time Setup and Customization
Your EDM comes with most settings programmed. However some settings you will fine tune to your installation and/or preferences. We recommend you perform the following minimum set up:
1. Pilot Programming Mode:
• Set the GPS Communications format to match your type of GPS.
• Fine tuning of fuel flow K-factor is important as it affects your fuel computer parameter accuracies.
• Set the Engine HP equal to your engines rated horsepower.
• Perform the HP Constants set up for best accuracy of the Percent Horsepower readout.
• Optionally fine tune other parameters such as MAP, OAT.
2. EDM Screen Customization
• Use ‘EDM Config’ to customize your EDM. Go to and click ‘Technical Support’, then ‘EDM Config’ and follow the instructions to create the editor on a USB Drive. Print the Help Instruction PDF’s and follow these on how to use the editor with the EDM. NOTE: If your unit was manufactured prior to June 3rd, 2010 then contact the factory to discuss customization.
3. Fuel Level Calibration
• Fuel Level calibration must be performed before the fuel level feature will function.
• Collect your calibration data for various fuel tank levels (called points) by putting the EDM into the ‘Fuel Level Readings’ mode. Carefully review readings during the process to insure the calibration data is sensible, correct and useable.
• Enter the data by putting the EDM into ‘Fuel Table Data’ mode and entering your values into each tanks chart.
1 Pilot Programming Mode
To start Pilot Program Mode, hold both STEP and LF buttons until you see PROGRAM for two seconds. Then tap the NEXT button to advance to the desired item in the list. Hold the NEXT button to back up in the list. Either tap NEXT until you see END? Yes and then tap EXIT or hold both NEXT and LF to save changes.
| First button advances to NEXT | Second button | |
|item |selects values | |
| | |Comments |
|Program Mode | |Stays on for two seconds. |
|Refuel | |Tap Refuel to change fuel status. Exits program |
| | |mode when done. |
|Auto Scan Rate 4 |0 ( 9 |Scan rate (seconds between parameters) in the |
| | |Automatic Mode. |
| | |0 disables the Automatic Mode. |
|Trip Used? No |NO ( YES |NO: When Refuel mode used on EDM, total fuel used|
| | |is reset to 0. |
| | |YES: accumulate total fuel used rather than reset|
| | |to 0 at each refueling. See page 47. |
|EGT Display in 1’s |1’s |Tapping 1’s sets the digital display to |
| |10’s |one-degree resolution; tapping 10’s sets 10°. |
| | |(10° resolution is easier to interpret the EGTs.)|
|OAT Display ºF | F ( C |Tap C to display OAT in Celsius, F to display in |
| | |Fahrenheit. Hold STEP and LF for 5 seconds to |
| | |ADJUST the OAT calibration. |
|OAT Adjustment 0 |-10 ( (10 |Adjust the indicated temperature up or down by up|
| | |to 10° using PLUS or MINUS. For example, OAT(3 |
| | |adjust the OAT 3° higher. |
|HP Constants | |Hold NEXT and button 2 for 5 seconds until you |
| | |see ADJUST rich of peak or lean of peak |
| | |constants. Tap ROP to proceed to Rich of Peak |
| | |‘HP Constant’ setting. Tap LOP to proceed to Lean|
| | |of Peak ‘Engine Constant’ setting. |
|HP Constant= 125 |10 (999 |Hold NEXT and button 2 until you see ADJUST. Tap |
| | |PLUS or MINUS to adjust (%HP display will reflect|
| | |changes). Hold NEXT and button 2 to save changes.|
|Engine Constant = 14.9 |1 ( 99.9 |Hold NEXT and button until you see ADJUST. Tap |
| | |PLUS or MINUS to adjust. Hold NEXT and button 2 |
| | |to save changes. |
|Engine HP = 225 |10(999 |Set the nominal horsepower of your engine. This |
| | |value will be multiplied by the %HP to display |
| | |HP. Hold NEXT and button 2 for 5 seconds until |
| | |you see ADJUST. Use PLUS or MINUS to adjust. Tap|
| | |SAVE to save changes. Tap NEXT to skip to next |
| | |item. |
|Lft MAP |-3.0(+3.0 |Correct the MAP to the altimeter setting at a sea|
| | |level airport ±3.0 inHg. Hold NEXT and button 2 |
|Rht MAP | |for 5 seconds until you see ADJUST. Use PLUS or |
| | |MINUS to adjust. Tap SAVE to save changes. Tap |
| | |NEXT to skip to next item. |
|Lft K-Factor 1= 29.90 |00.10 ( 99.99 |Set the instrument’s K-factor to match the fuel |
|Rht K-Factor 1= 29.90 | |flow transducer K-factor and performance. Hold |
| | |NEXT and button 2 for 5 seconds until you see |
| | |ADJUST. Use DIGIT, PLUS or MINUS to adjust. Hold|
| | |NEXT and button 2 to save changes. |
|GPS Format = 6 |0 ( 8 |Adjust to set the GPS Communications format. Hold|
| | |NEXT and button 2 for 5 seconds until you see |
| | |ADJUST. Use PLUS or MINUS to adjust. Tap SAVE to|
| | |save changes. Tap NEXT to skip to next item. |
|Time: 18:23:59 |00:00:00 ( |Hold NEXT and button 2 for 5 seconds until you |
| |23:59:59 |see ADJUST. Use Hours, Minutes, Seconds to |
| | |adjust. Tap SAVE to save changes. Tap NEXT to |
| | |skip to next item. |
|Date: 05/14/09 |01/01/00 ( |Hold NEXT and button 2 for 5 seconds until you |
| |12/31/99 |see ADJUST. Use Month, Day, Year to adjust. Tap |
| | |SAVE to save changes. Tap NEXT to skip to next |
| | |item. |
|END? Yes |END? Yes |Yes exits the pilot program mode. |
| | |No reenters pilot program mode. |
|FACTORY Mode | |Stays on for two seconds. |
|FUEL UNITS: GAL |Hold buttons 1 and|Default unit is GAL. Tap CHANGE to choose a |
| |2 to enter the |different unit. Hold buttons 1 and 2 to Save the|
| |change fuel units |new fuel unit. |
| |function. | |
|MAIN TANK SIZE = |0 ( 999 gal. |In gallons or preset value. Use PLUS or MINUS to|
| | |adjust. Tap NEXT to skip to the next item. |
|AUX TANK SIZE = |0 ( 240 gal. |In gallons or preset value. Use PLUS or MINUS to|
| | |adjust. Tap NEXT to skip to the next item. |
|FUEL USD REMINDER |0 ( 500 gal. |In gallons or preset value. Use PLUS or MINUS to|
| | |adjust. Tap NEXT to skip to the next item. |
|REMINDER TIMEOUT = 5 |0 ( 60 min. |Sets duration on display in minutes. Use PLUS or|
| | |MINUS to adjust. Tap NEXT to skip to the next |
| | |item. |
|CHANGE PRE-ALARMS |YES or NO |Tap YES or NO to enter gauges with no yellow |
| | |bands displayed. |
|ENABLE PRE-ALARM MSGS |YES or NO |Tap YES or NO to enter gauges for pre-alarm |
| | |setting for , HI EGT, HI TIT,HI CHT, HI OIL-T, HI|
| | |MAP, LOW TANK. |
|HI EGT = 1650 |1250 (1650 F |Use PLUS or MINUS to adjust. Tap NEXT to skip to|
| | |the next item. |
|HI TIT =1650 |1250 (1650 F |Use PLUS or MINUS to adjust. Tap NEXT to skip to|
| | |the next item. |
|HI CHT =450 |260 ( 460 F |Use PLUS or MINUS to adjust. Tap NEXT to skip to|
| | |the next item. |
|HI OIL-T = 210 |190 ( 240 F |Use PLUS or MINUS to adjust. Tap NEXT to skip to|
| | |the next item. |
|LOW OIL-T = 100 |100 ( 150 F |Use PLUS or MINUS to adjust. Tap NEXT to skip to|
| | |the next item. |
|HI MAP = 30 |30.0 ( 38.0 |Use PLUS or MINUS to adjust. Tap NEXT to skip to|
| | |the next item. |
|LOW TANK = 5 |1 ( 50 gal. |In gallons or preset value. Use PLUS or MINUS to |
| | |adjust. Tap NEXT to skip to the next item. |
|AVERAGE CRUISE RPM 2400 |2043 ( 2563 rpm |Hold NEXT and button 2 until you see ADJUST for |
| | |two seconds. Tap PLUS or MINUS to adjust. Hold |
| | |NEXT and button 2 to Save. |
|AMPS ADJUSTMENT + 0 |-10 ( 10 |Use PLUS or MINUS to adjust. Tap NEXT to skip to|
| | |the next item. |
|Engine HP 210 |10 ( 999 HP |Hold NEXT and button 2 until you see ADJUST for |
| | |two seconds. Tap PLUS or MINUS to adjust. Hold |
| | |NEXT and button 2 to Save. |
|Engine Constant 13.7 |1 ( 99 |Hold NEXT and button 2 until you see ADJUST for |
| | |two seconds. Tap PLUS or MINUS to adjust. Hold |
| | |NEXT and button 2 to Save. Use 14.9 for |
| | |non-turbo’d and turbonormalized and 13.7 for |
| | |turbocharged engines. |
|LOP DFLT? N |YES or NO |Tap YES to make LOP your default setting. Tap NO|
| | |to keep ROP your default setting. |
|SWAP DIALS? N |YES or NO |Tap YES to swap gauge positions or NO to keep it |
| | |the way it is, unless it already says YES in |
| | |which case you tap NO to swap gauge positions. |
|CO GUARDIAN? Y |YES or NO |Select YES or NO and hit NEXT to go to the next |
| | |item. Note: This feature requires a factory |
| | |modification to the EDM-930 and will come with a |
| | |connection diagram. |
|FDR OUTPUT? Y |YES or NO |Allows recording output. Select YES or NO and |
| | |hit NEXT to go to the next item. |
|END? Yes |NO or YES |YES exits the pilot program mode. |
|NO re-enters the FACTORY | | |
|programming mode. Holding | | |
|buttons 1 and 2 will go into | | |
|the Hobbs Time change | | |
|function. | | |
|HOBBS TIMES |Hold buttons 1 and|Goes into the Hobbs change function. |
| |2 to enter the | |
| |change Hobbs times| |
| |function. | |
|AIRFRAME HOBBS: |DIGIT, PLUS or |Tap DIGIT to change the digit you want to change |
| |MINUS |and PLUS or MINUS to go up or down numerically. |
| | |Hold buttons 1 and 2 to Save and move onto Tach |
| | |Time. |
|TACH TIME: |DIGIT, PLUS or |Hold buttons 1 and 2 to change TACH TIME. Tap |
| |MINUS |DIGIT to change the digit you want to change and |
| | |PLUS or MINUS to go up or down numerically. Hold|
| | |buttons 1 and 2 to Save and move onto END? |
2
3 Adjusting the HP Constant for Rich of Peak Operation
To fine tune the %HP readout, follow this procedure airborne between 5,000 and 8,000 feet MSL.
1. Enter the pilot program mode by simultaneously holding the STEP and LF buttons for five seconds.
2. Tap STEP repeatedly until you see HP Constants. Hold both NEXT and Button 2 until you see ROP and LOP appear in status bar. Tap ROP. Now HP Constant 125 should appear. Hold both NEXT and Button 2 until you see ADJUST momentarily. Adjustment range for the HP Constant is 45 to 180.
3. Set the MP and RPM per your POH to 70 percent power. Let conditions stabilize.
4. Adjust the HP Constant value PLUS or MINUS so that the %HP reading on the display equals ‘70 %HP’. Note: this is the percent of maximum horsepower.
5. Hold both NEXT and Button 2 until you see SET.
4 Adjusting the MAP
This procedure allows you to adjust the MAP to the altimeter setting at a sea level airport. NOTE: If airport is not at sea level, use the correction table on the next page to derive corrected sea level altimeter setting).
1. Enter the pilot program mode by simultaneously holding the STEP and LF buttons for five seconds.
2. Tap NEXT repeatedly until you see Lft MAP +0.0. Then hold both the NEXT and Button 2 until you see ADJUST momentarily.
3. Adjust the value using the PLUS or MINUS until the value equals the altimeter setting (sea level airport). The adjustment range for the MAP is ±3.0 inHg.
4. Hold both NEXT and Button 2 until you see SET.
5. Repeat for right engine.
[pic]
1 Adjusting the % HP Value
You must set the nominal horsepower of your engine. This value is used to calculate the percent horsepower display.
1. Enter the pilot program mode by simultaneously holding the STEP and LF buttons for five seconds.
2. Tap NEXT repeatedly until you see Engine HP 200. Then hold both the NEXT and Button 2 until you see ADJUST momentarily.
3. Adjust the value PLUS or MINUS to equal your engines HP.
6. Hold both NEXT and Button 2 until you see SETFuel Flow K factor
The K factor is shown on the fuel flow transducer as a hand written four-digit number, which represents the number of pulses per tenth gallon of fuel flow. Before installing the transducer, record its K factor below. The EDM stores the K Factor in the form 29.12, i.e. if the transducer K factor is 2912, you would enter 29.12 in the EDM’s K factor field.
Left engine transducer K factor: ___________.
Right engine transducer K factor:___________.
If you have return line flow transducers, record them below:
Left engine return flow transducer K factor: __________.
Right engine return flow transducer K factor:__________.
2 Fine Tuning the K factor
Aircraft installation will affect K factor. Because of this you should ‘fine-tune’ the K-factor, for your aircraft, as described below:
1. Fill each aircraft tank that each engine will run from (note: engine return lines must return the fuel to each respective tank). ‘Refuel’ EDM, noting that ‘USED’ resets to zero for each engine.
2. Fly aircraft for 2 to 3 hours. Immediately after engine shutdown, record EDM ‘USED’ parameter for each engine in chart below.
3. Refill each tank and record ACTUAL USED for each tank in the in chart below.
| |EDM ‘USED’ |ACTUAL USED |
|Flight |Left Engine USED|Right Engine USED |Left Engine Tank |Right Engine Tank |
|A | | | | |
|B | | | | |
|C | | | | |
|Totals |( |( |( |( |
4. Total ( the EDM calculated fuel ‘USED’ and ( the actual fuel used for each engine.
5. Record the current K factor here (_________ and in the table below.
6. Calculate the Adjustment ratio:
Adjustment ratio = (( / ( ) - 1 2
7. New K Factor = ( x (Adjustment ratio +1).
Record the values here: Left Engine
| |(EDM fuel used |(actual fuel used|(Current K factor|New K factor |Pilot’s |
|Date | | | | |initials |
| | | | | | |
| | | | | | |
| | | | | | |
| | | | | | |
Record the values here: Right Engine
| |(EDM fuel used |(actual fuel used |(Current K factor |New K factor |Pilot’s |
|Date | | | | |initials |
| | | | | | |
| | | | | | |
| | | | | | |
| | | | | | |
IMPORTANT: after adjusting K factors you must apply a correction factor to the EDM indicated fuel USED and indicated fuel REMaining, accordingly. We recommend you top the tanks and ‘Refuel’ the EDM to eliminate this requirement.
Entering the K factor
1. Enter the pilot program mode by simultaneously holding the STEP and LF buttons for five seconds until you see PROGRAM MODE.
2. Tap the NEXT button repeatedly until you see the K factor you wish to adjust: example: ‘LFT K-Factor 1 = 29.90’, for left engine.
3. Hold both NEXT and Button 2 until you see ADJUST. The first digit blinks (shown here as a larger digit for illustration purposes): 29.90
4. Tap the DIGIT button to make digit you wish to edit blink: 29.90
5. Tap the PLUS or MINUS button to change blinking digit: 18.90
6. Repeat items 8 and 9 for the remaining digits.
7. Tap SAVE to save and exit the K factor adjustment.
8. Tap NEXT repeatedly until you see END? YES, then Tap EXIT to exit the program mode.
Note: for any ‘return flow’ transducers, we recommend you do not attempt to ‘fine-tune’ them, however their K factors do need to be initially entered into the EDM.
6 Programming Trip Mode
Trip Mode keeps a running total of fuel used (USD) for all flights. If Trip Mode = No, fuel ‘USD’ is zeroed after updating the EDM’s fuel computer via Refuel modes. NOTE: to clear the fuel used display at any time, tap STEP until you see USD. Hold both DIM and ALL/EGT/FF buttons until the display shows ‘.0 USD’.
1. Enter the pilot program mode by simultaneously holding the STEP and LF buttons for five seconds.
2. Tap NEXT repeatedly until you see TRIP Used? No.
3. Tap YES to select the trip mode or NO to deselect mode.
4. Tap NEXT to accept your choice.
7 Setting the GPS Com Format
This process allows you to select what GPS communication format the EDM should use when sending fuel flow data to the GPS. See table below with the numeric GPS-C values and their corresponding formats.
1. Enter the pilot program mode by simultaneously holding the STEP and LF buttons for five seconds.
2. Tap NEXT repeatedly until you see GPS FORMAT.
3. Hold DIGIT and Button 2 until ADJUST appears
4. Select desired code value using PLUS or MINUS.
5. Hold both NEXT and Button 2 until you see SET.
|GPS-C |Type of GPS Format |
|0 |No fuel data output |
|1 |Garmin (Shadin format) |
|2 |Allied Bendix Signal (format B) “To waypoint only” |
|3 |Arnav/EI fuel data |
|4 |Allied Bendix Signal (format C) * |
|5 |(Not used) |
|6 |Garmin 430/530 GNX-80/GX-60 “To waypoint only” |
|7 |Garmin 430/530 “Dest” Destination |
|8 |Bendix (B) “Dest” Destination |
Custom Key Card
The EDM contains a Key Card which customizes it for your aircraft. This card defines fixed primary instrument limits and ranges, EDM serial number and make, model and year of your aircraft. You cannot exchange it with any other EDM. Typical parameters include: oil temp, oil pressure, fuel pressure, fuel quantity, cylinder head temp, turbine inlet temp, manifold pressure, and RPM. Do not remove the Key Card from the instrument. If your EDM should ever have to be replaced with a different unit, the factory will reprogram your Key Card to match the new serial number. Always confirm that your aircraft make and model are initially shown in the RAD upon power up.
Setting Fuel Calibration Points
The EDM interfaces to various fuel level sensor types to facilitate direct reading of the fuel level in the aircraft fuel tanks. The EDM has a multi-point fuel calibration table that you must enter. This table contains calibration values (stored in non-volatile memory) used to translate sensor readings into the displayed fuel quantity values. The calibration information is collected and recorded on paper for later entry into the EDM. NOTE: Fuel quantity gauges will not be functional until the fuel calibration information has been entered into the EDM. You will use the EDM instrument itself as the measuring device to collect calibration data.
The following describes the basic procedures necessary for collection and entry of data into the fuel level calibration table. Note: Any changes to fuel table data will be temporary until you execute the ’SAVE’ function (available after last cell of the last tank table is entered).
Before beginning the fuel table entry/edit process, you must have properly installed and tested for correct functionality of the fuel sensors with the airplane in flight attitude.
Capturing the sender reading at each calibration point:
Getting Started…Collecting Fuel Level Calibration Data
using the EDM as a meter.
1. With power off, hold in Button 4 (Button 1 being far left) and then turn on power. For each EDM monitored tank, create a paper table with the 5 calibration points and at what volume each will be. The zero gallon point reading is always taken with unusable fuel in the tank. Example of a completed 5 point table for LEFT tank:
| |LEFT |
|F |39.0 GAL |1907 |
|¾ |29.3 GAL |1431 |
|½ |19.5 GAL |1145 |
| ¼ |9.8 GAL |971 |
|E |0.0 GAL |685 |
2. This screen provides real-time readings of all active fuel level sensors. Verify readings look normal. Reading are arbitrary whole numbers
3. Now add fuel as needed to match the required volume for a particular point. Allow this to settle, then take a reading and record it on paper adjacent to that point.
4. Repeat this process until all 5 points have been recorded for each tank.
1
2
3
4 After you have collected your data
After you have collected your data…
Entering / Editing Fuel Level Calibration Data
The Fuel Table Editor is a spreadsheet type format allowing you to easily see the volume and related calibration values side by side. You can easily navigate through the cells to enter values.
1. With power off, hold in Button 3 (Button 1 being far left) and then turn on power. Wait until you see ‘Do you agree with the disclaimer?’. Tap YES if you agree and wish to continue.
2. Tap YES when you see ‘Do you have table data?’.
3. Tap USER when you see ‘Do you want to restore user table?’ (Note: tapping FACTORY causes the fuel table stored on the Key Card to over-write any previous user entries in the fuel table. Use FACTORY if you want to start from the original factory default).
4. Tap TANK to select the next active tank and repeat previous step. Continue until all tanks ‘points’ have been set.
5. Tap TABLE. You see ‘Fuel Table Data’ (White at top of screen) with a table.
6. Tap/hold STEP to select the cell you want to edit. Tap EDIT to change the value. Tap SAVE to record it. Follow the on-screen menus to edit the value. Keep tapping DIGIT to move it across.
7. Repeat previous step until all tanks data have been entered.
8. You see ‘Save fuel tank data?’. Answer SAVE to store all final data values or CANCEL to return to table editing.
Troubleshooting the EDM-960
Common Misapplications
|Problem |Situation |Correction |
| |A power transient could cause |Recycle the power to the EDM |
|Display freezes or may be |the processors to malfunction | |
|incorrect | | |
| |Failure to pre-lean before |Continue to lean without stopping |
|Lean Find finds a “peak” too |performing Lean Find or | |
|soon |stopping while leaning | |
| |Leaning too slowly |Lean more rapidly |
|Peak not found during Lean Find|Lean Find not activated or |Lean at the speed of approximately |
| |stopping while leaning |10°F per second |
|Off-scale EGT columns, too high|Off-scale EGT column readings.|The higher sensitivity of the |
|or low |EDM in the Normalize view |Normalize view can quickly go too |
| |(blue scales) |high or low off-scale with only |
| | |small changes in EGT. |
|First cylinder to peak is not |This is normal. The first to cylinder peak is not necessarily the |
|the hottest |hottest |
|EGTs rise during single magneto|This is normal, due to incomplete combustion persisting longer |
|check | |
|EGTs not uniform during low |This is normal. Fuel and air distribution is not optimal at low |
|power operation |power settings |
6 Diagnostic Testing on Startup and During Flight
When your EDM is first turned on the unit performs several tests on internal components, calibration and integrity of the probes. Typically, alarms are disabled until the engine has been started.
During flight, probes are constantly checked for inconsistent or intermittent signals. A faulty channel or probe encountered during start-up or during flight will be deleted from the sequence, producing a missing column or blank digital data.
7 Diagnostic Messages
The following displays indicate a malfunction in the system:
1 Startup and Operational Diagnostics
|0.0 GPH |Zero’s indicate Fuel flow is too low to register |
|--- GPH |Dashes indicate No fuel flow transducer signals |
|--- H.M |Dashes indicate No fuel flow transducer signals |
|OPEN PRB |Open probe. Wiring to probe is open circuit. Check wiring and crimps. |
| |Swap probes to troubleshoot. |
|BAD-PRB |Bad probe. Erratic reading. May be poor electrical connection. Swap |
| |probes to troubleshoot. |
|Red ‘X’ drawn through a |Measurement out of range. |
|single gauge | |
|Red ‘X’ drawn through |DAU failure or DAU communications error. Check power to DAU and wiring|
|all gauges for an engine|harness connections. |
|CAL ERR |Calibration error. Return unit to factory. |
|DSP XXX |Internal communication error. Return unit to factory. |
|COMM ERR |Internal communication error. Return unit to factory. |
|NO I 5 MV |Calibration error. Return unit to factory. |
|NO 50MV |Calibration error. Return unit to factory. |
|NO 2.5V |Calibration error. Return unit to factory. |
|PWR DWN |Power down the instrument and power up again. |
|WARNCAL, WARNCFG |Transient warning messages. If they persistently occur, return the unit|
| |to JPI for repair. |
|HOBSERR |The time of the most recent flight may not be reflected in the HOBBS |
| |meter. |
|HOBSBAD |The HOBBS data has been corrupted. The HOBBS meter will be cleared. |
|HANGCFG, HANGCAL |Internal system errors. Return unit to factory. |
2
3 GPS Interface Diagnostics
|Measurements ‘xxx REQ’, |No communications from GPS receiver to EDM. |
|‘xxx RES’ and ‘xxx MPG’ are all missing |Possibly no connection or aircraft GPS is off. |
|from the scan. | |
|NO - COM message and |Communications are received by EDM and the |
|‘xxx REQ’, ‘xxx RES’ and |Auto-Protocol setup is in process. Verify correct |
|‘xxx MPG’ are all missing from the scan. |output format setup in GPS receiver; check GPS |
| |connections. |
|NO - SIG message and |GPS receiver has insufficient signal for valid |
|‘xxx REQ’, ‘xxx RES’ and |data. |
|‘xxx MPG’ are all missing from the scan. | |
|NO - WPT message and |No waypoints are programmed into the aircraft GPS |
|‘xxx REQ’, ‘xxx RES’ are all missing from |receiver. |
|the scan. | |
|Message ‘- - - REQ’ or ‘- - - RES’ appears.|Your ground track is too many degrees (typically |
| |more than (70°) off from your course to the next |
| |GPS waypoint. |
Appendices
1 Shock Cooling
Cooling the cylinders too fast can result in cracking and eventual failure. Lycoming Service Instruction 1094D (March 25, 1994) on Fuel Mixture Leaning Procedures states:
“At all times, caution must be taken not to shock cool the cylinders. The maximum recommended temperature change should not exceed 50°F per minute.”
JPI checks shock cooling on all cylinders and displays the rate of the cylinder that is shock cooling the most.
EDM Display Head back connectors
2 Navigation Data Formats
3 Output of GPS; input to EDM. The EDM automatically configures itself for one of three industry standard data formats:
|Format |Baud | |
|NMEA-183 (Marine |4,800 |This is the format for most handheld GPS receivers. Loran must |
|Nav Data Format) | |have sentences RMA & RMB. GPS must have sentences RMB & RMC. |
|Aviation Data |9,600 |“Output sentence type 1” Required sentences are: A, B, C, D, E, I |
|Format | |and L first character identifier byte. Sentence terminator may be |
| | |either or alone. |
|Northstar |1,200 |M1 setup select “NO EXTENDED”, “NAV ONLY” |
|(Northstar binary)| | |
4
5
6
7
8 Navigation Data Ports for GPS Comm
(These ports are independent of the EDM serial data output port.)
1 Navigation Data (output from GPS; input to EDM-960)
Compatible with RS-232, TTL, RS-423, RS-422 SDA. Serial data format: 8 data bits, 1 start bit, no parity. Baud rates: 1,200, 4,800, or 9,600 depending on the GPS data output format. The EDM automatically detects the GPS data output format and is independent of the GPS-C setting.
2 Fuel Data (input to GPS; output from EDM-960)
RS-232. Serial data format: 8 data bits, 1 start bit, no parity. Baud rate: 9,600. Output format is determined by the GPS-C setting, but may be over-ridden by the GPS navigation format: If the EDM senses Northstar or NMEA-183 navigation data input, there will be no fuel data output.
9 Interface connections to selected GPS models
| |EDM Display |EDM Display |
| |P8 - Pin 21 to: |P8 - Pin 9 to: |
|Arnav 5000 |Pin 4 |Pin 5 |
|Garmin 195 |(nc) |Pin 4 |
|Garmin 430 / 430 |Pin 57 |Pin 56 |
|Northstar M3P |(nc) |Pin 6 (leave pin 11 open) |
|UPS GX50 / 60 |Pin 4 |Pin 5 |
EDM Config Editor
Contents
1. Overview 57
2. DISCLAIMER 66
3. Starting EDM930/960 Configuration Editor 58
4. Changing Gauge Layout 59
5. Removing Fuel Level Gauges from display 60
6. Replacing Gauges 61
7. Changing Gauge Markings 62
8. Gauge Details Screen 73
9. Gauge Range and Alarm Limits 74
10. Color Bands 75
11. Options 75
12. Modifying Aircraft Information 76
13. Changing Tail Number 76
14. Change Number of Engine Cylinders 76
15. Changing fuel units 77
16. Changing Main Tank Size 78
17. Changing Channels Monitored 78
18. Changing Alarm Values 79
19. EDM Alarms Screen 79
20. Restoring EDM to a Previous Configuration 80
21. Restoring EDM to Factory Configuration 81
1. Overview
This program assists you in configuring the EDM-930 SINGLE and EDM-960 TWIN unit. In this guide they will all be called EDM. The EDM has numerous parameters that control the operation of the unit. All non-primary user parameters can be modified either by (1) using the four-button interface on the front panel of the EDM or (2) by using EDM Configuration Editor—described here—that provides a windows based utility that facilitates modifying these various parameters in a user-friendly way. Note: appearances may vary due to different revisions and instrument configurations.
EDM’s approved as primary instruments have preset alarm limits and do not allow changing of these primary alarm limits and cautionary ranges for the following measurements: oil temperature, oil pressure, fuel pressure (Optional in some aircraft), fuel quantity, cylinder head temperature, turbine inlet temperature, manifold pressure, and RPM. Other non-primary parameters may be changed by the user.
2. DISCLAIMER
Proper configuration of your J.P. Instruments EDM is very important to the safe operation of your aircraft. All primary instrument settings must conform to the manufacturer's limitations for your aircraft.
It is your responsibility to ensure that all limitations and markings are correct before operating your aircraft.
By continuing to run the EDM Configuration Editor, you acknowledge:
• You have read the Pilot's Guide for this device
• You have read the EDM Configuration Guide
• You will not use this program for any purpose other than configuration of your J.P. Instruments EDM system.
• Your agreement with this information.
3. Starting EDM930/960 Configuration Editor
All EDM930 and EDM960 units manufactured or updated after Sep 14, 2012 have the EDM Configuration Editor built into a separate utility memory area of the EDM.
To start the EDM Configuration Editor, hold the left two EDM buttons (STEP & LF) while powering up the EDM. This will start the EDM in a special AppLoader mode. Once the EDM Configuration Editor program is found, a button will be labeled CFG EDITOR. Press the button to run the EDM Configuration Editor program.
When EDM Configuration Editor starts, it will show a startup screen titled EDM960 Configuration Editor or EDM930 Configuration Editor that lists the version information for the Editor.
USB Configuration Capturing- Captures all your settings except fuel tables and keeps them for later use. You may insert a clean USB thumb drive any time during use of the program Config Editor. STEP through all the levels offered until End Config Edits and insert the USB thumb drive. Hit SAVE and the configuration will be downloaded and time stamped to the thumb drive. When making changes to anything while using Config Editor install the thumb drive before saving and it will save the previous configuration and time stamp.
[pic]
Note: Images are for example only and may not be representative of your actual display.
4. Changing Gauge Layout
Positions of non-primary linear strip gauges can be exchanged with other non-primary gauges on the right half of the display. When you see the EDIT GAUGE LAYOUT? prompt, tap the YES key to allow selection of gauges to be repositioned on the EDM screen.
Tap the NEXT key to select the strip gauge to be moved. If you go past the desired strip gauge, Tap the PREV key to go back to the previous gauge.
Tap the SELECT key to start repositioning of the gauge on the EDM.
After a gauge is selected, tap the NEXT key to select the new position for gauge to be moved. When the correct location has been selected, tap the MOVE key. When all desired gauge location changes have been made, tap the DONE key to exit this screen. If you get an extended “Loading…” comment on the display just hit STEP or NEXT.
Notes: If the EDM is configured as a PRIMARY instrument, PRIMARY gauges cannot be moved and will be skipped.
The EDM screen must contain at least 2 non-primary gauges in order to allow repositioning of gauges.
Editing of Gauge Layout requires EDM software version 1.20.464 or later.
5. Removing Fuel Level Gauges from display
If you prefer to use the ship’s fuel level gauges, you can choose to remove the fuel level gauges from the EDM display. When you see the EDIT GAUGE LAYOUT? prompt, tap the YES key to allow selection of the fuel level gauges to be removed from the EDM screen.
Tap the NEXT key to select the fuel level strip gauge to be removed.
Tap the REMOVE key to remove the fuel level gauge from the EDM. Both fuel level gauges will be removed.
If you want to re-enable fuel level gauges on the EDM, tap NEXT key until the fuel level gauge location is selected. Tap the ADD key to restore the fuel level gauges to the EDM display. Tap the DONE key to exit this screen.
6. Replacing Gauges
You can select the information to be displayed on any non-primary linear strip gauge. For example, you may want to replace OAT with CDT or CARB temperature gauges. . When you see the EDIT GAUGES? prompt, tap the YES key to allow selection of gauges to be replaced with another gauge on the EDM screen.
Tap the NEXT key to select the strip gauge to be replaced or Tap the PREV key to select the previous gauge.
Tap the MODIFY key to start editing of the selected gauge.
Tap the Next key until the gauge name is highlighted (box around gauge name). Tap the MODIFY key to start selection of a new input channel to be displayed on this gauge. Tap the YES key if you want to change the gauge name. Tap the NEXT key until the desired gauge name is selected. When you have selected the desired gauge, tap the SAVE key to replace the original gauge with the new gauge. Tap the YES key if you want to make the change. After the new gauge is displayed, you will want to tap the MODIFY key to set the gauge markings and limits for your aircraft. See the “Changing Gauge Markings” section below.
Note: If the EDM is configured as a PRIMARY instrument, PRIMARY gauges cannot be removed or replaced.
Replacing gauges requires EDM application version 1.20.489 or later.
7. Changing Gauge Markings
When you see the EDIT GAUGES? prompt, tap the YES key to allow selection of gauges to be modified on the EDM screen.
Tap the NEXT key to select the next gauge to be modified. Hold the NEXT key to select the previous gauge.
Tap the MODIFY key to start modification of the gauge on the EDM. Use the NEXT key to navigate through each position on the gauge to change color or limit markings.
When all desired changes have been made, tap the SAVE key. Tap YES to save the gauge changes.
When all desired changes have been made, tap the DONE key to exit this screen.
Note: If the EDM is configured as a PRIMARY instrument, PRIMARY gauges cannot be modified and will be skipped.
8. Gauge Details Screen
When the MODIFY key is tapped, the Gauge Details Screen will be displayed with an image of the selected gauge and all available values to be modified for the gauge.
The gauge details screen lets you select the minimum and maximum scale, the alarm limits, and the color band positions for normal, warning and alarm ranges. VOLTS will be used as an example how to configure gauge markings.
9. Gauge Range and Alarm Limits
To change To change the gauge range, use the NEXT key to select the Max Value or Min Value, and use the PLUS and MINUS keys to adjust the value.
When a gauge contains a RED band in the Band5 position, a High Limit is associated with the gauge. When a gauge has a High Limit, the EDM will display an Alarm message when the gauge value is greater than or equal to the High Limit value. Changing Band5 color from RED to any other color disables the High Limit and the EDM’s High Alarm for the gauge.
When a gauge contains a RED band in the Band1 position, a Low Limit is associated with the gauge. When a gauge has a Low Limit, the EDM will display an Alarm message when the gauge value is less than or equal to the Low Limit value. Changing Band1 color from RED to any other color disables the Low Limit and the EDM’s Low Alarm for the gauge.
10. Color Bands
The color band configuration system enforces the following rules:
• All gauges are configured with five color bands containing from one to five unique colors.
• Color bands are “connected” – the end of one band is connected to (the same value as) the start of the next band, etc.
• If the color band start and end values are equal, the color band will be invisible.
• Two consecutive bands of the same color appear as a single band of that color.
• Changing a color band’s color or start or end value will update the gauge image on this screen.
11. Options
The VOLTS, AMPS and OAT gauge screens have Options selections that allow you to quickly configure the default values associated with the select option. For example, selecting 28V in the VOLTS screen above would load the default values for a 28 volt electrical system. Note: changing the Options value will change multiple band values.
Saving the Data
When you have completed the new configuration for the gauge, tap the SAVE key to save the configuration to the EDM.
Note: This change is immediate when saved.
12. Modifying Aircraft Information
After agreeing to the EDM Configuration Editor Usage Agreement, you will have the opportunity to view a quick slide show describing the basic operation of the EDM Configuration Editor.
If the EDM is a primary instrument configured for a particular aircraft, only values associated with non-primary gauges can be modified. In addition, the aircraft type, aircraft tail number, and engine information will be read-only.
Tip: The EDM uses gray text whenever the value to be modified is “protected.” Protected values are those when require an extra step to prevent accidently modifying the value. Holding the left two keys (NEXT and PREV) unlocks the value to be edited. When you have made the desired changes to the value, hold the two left keys again to store the new value. If the EDM is configured as a TSO or Advisory Only unit, you will be allow to change nearly all EDM configurable parameters, including the aircraft ID and engine information.
13. Change Number of Engine Cylinders
The CYLS= prompt allows you to change the number of cylinders monitored and displayed by the EDM. Hold the two left keys to start changing the number of cylinders. Tap the PLUS or MINUS keys to increase or decrease the number of cylinders. Acceptable values are 4, 6, 7, 8 or 9. Hold the two left keys to save the modified value.
After changing the CYLS= value, you may also need to change the R-FACTOR value. The R-FACTOR is used to specify the number of pulses per revolution output by your RPM sensor. Available values are 4 – 12.
Changing Engine Temperature Units
The ENG °F / °C prompt allows you to change engine temperature units displayed by the EDM. Hold the two left keys to start changing the number of cylinders. Tap the F or C keys to change to Fahrenheit or Celsius. Hold the two left keys to save the modified value. Note: If the EDM is configured as a PRIMARY unit, you will be not be allowed to modify the Engine Temperature Units except OAT.
14. Changing fuel units
Hold the left two keys to allow changing the FUEL UNITS. Available values are GAL, LBS, LTR, KGS. Hold the left two keys to save changes to FUEL UNITS. Note: Changing FUEL UNITS is only available for TSO and ADVISORY ONLY EDM units.
Note: For PRIMARY units the following changes to the main and aux tank size applies to the fuel totalizer only. For main tank capacities see fuel level section.
15. Changing Main Tank Size
Hold the left two keys to allow changing the MAIN SIZE. Available values are 0.0 to 999.9 gallons, or 0 to 9999 liters, pounds, or kilograms. Hold the left two keys to save changes to MAIN SIZE.
Changing Aux Tank Size
Hold the left two keys to allow changing the AUX SIZE. Available values are 0.0 to 999.9 gallons, or 0 to 9999 liters, pounds, or kilograms. Hold the left two keys to save changes to AUX SIZE.
16. Changing Channels Monitored
When you see the EDIT CHANNELS? prompt, tap the YES key to display the EDM Probe & Sensor Channels screen.
Tap the STEP key to select the next channel to be enabled or disabled. Hold the STEP key to select the previous channel.
Tap the ENABLE key to mark an “X” to enable the selected channel on the EDM or DISABLE to remove an “X” to disable the selected channel on the EDM.
When all desired changes have been made, tap the SAVE key to exit this screen. If changes have been made on this screen, you will be asked Save Channel Changes? Tap the appropriate key (YES or NO).
Note: If the EDM is configured as a PRIMARY instrument, data channels associated with PRIMARY gauges will be displayed in RED and cannot be modified.
17. Changing Alarm Values
When you see the EDIT ALARMS? prompt, tap the YES key to allow selection of alarm values to be modified.
18. EDM Alarms Screen
The EDM Alarms window lets you change some alarm limits. When these values are met or exceeded, a flashing message will be displayed in the EDM's message area.
• You may change any value shown in WHITE.
• Values shown in YELLOW are configured on the gauge displaying the value.
• Values shown in RED are PRIMARY LIMITS and are prohibited from modification.
• Values shown in GRAY do not have an associated alarm.
When you are done changing the alarm limitations press the SAVE key. Alarms associated with gauges displayed on the previous gauge configuration screen, cannot be modified here. Tap PREV to return to the GAUGE EDIT screen to modify values displayed in YELLOW. When used as a primary instrument, government regulations do not allow modification of settings in red.
When you have finished changing the alarms for your aircraft, tap SAVE to move to the next screen.
19. Restoring EDM to a Previous Configuration
When you start the EDM Configuration Editor, you will see a RESTORE FROM USB DRIVE message after the program tutorial screens. You may use this prompt to restore the EDM to a configuration saved during the editing process earlier.
• When you see RESTORE FROM USB DRIVE, install the USB FLASH drive and tap the YES key.
• You will be asked to select the date and time of the saved configuration to be loaded. The EDM will sort the ten most recent backups with the most recent backup file first.
• When you see the point in time that you would like to return to, hold the left two EDM keys until the word SUCCESS EDM RESTORED appears in the message area.
• Follow the prompt to REMOVE THE USB. At this point the EDM will reboot.
20. Restoring EDM to Factory Configuration
Suppose the changes you made are not what you expected. You can restore your EDM to the FACTORY settings for your aircraft by following this procedure:
• Start the EDM Configuration Editor as described on page 2 above.
• Tap NEXT until you see End Config Edits (with YES / NO keys).
• Press and hold both the YES and NO keys until FACTORY RST? is displayed.
• Tap YES key.
• Tap YES key a second time to confirm the reset operation. Warning: All user settings, including K-Factors, and other preferences will be erased. In order to save all pre-set values except fuel tables see USB Configuration Capturing on page 3.
• After the reset operation completes, you will be returned to End Config Edits prompt. Tap the YES key.
Technical Support
JPI offers web, e-mail and telephone technical support. Have your model and serial number ready when you call. Call JPI for a return authorization number before returning any equipment.
J.P.INSTRUMENTS Inc.
3185-B Airway Ave.
Costa Mesa, CA 92626
Call: (800) 345-4574
Web:
Limited Warranty
J.P. Instruments Inc. (JPI) warrants all parts in your new EDM-960 to be free from defects in material and workmanship under normal use. Our obligation under this warranty is limited to repair or exchange of any defective part of this unit if the part is returned, shipping prepaid, within three years for electronics and one year for probes from the date of original purchase. Installation labor is the responsibility of the aircraft owner. Homebuilt aircraft warranty starts when the aircraft is certified for flight. Replacement parts carry a warranty for the balance of the warranty period.
Under this warranty, JPI is not responsible for any service charges, including removal, installation, nor any other consequential damages. JPI incurs no obligation under this warranty unless a Warranty Registration Certificate describing the warranted product has been completed and mailed to JPI with all information requested.
This warranty is void on any product which has been subject to misuse, accident, damage caused by negligence, damage in transit, handling or modification which, in the opinion of JPI, has altered or repaired the product in any way that effects the reliability or detracts from the performance of the product, or any product whereon the serial number has been altered, defaced, effaced or destroyed.
This warranty is in lieu of all other warranties expressed or implied and other obligations of liability on JPI’s part, and it neither assumes nor authorizes any other person to assume for JPI any other liability in connection with the sale of JPI products.
To initiate this warranty, the aircraft owner must submit a completed Data Logging Worksheet to JPI. Upon receiving a completed worksheet, JPI will initiate the warranty from the date of original purchase. Any replacement parts carry a warranty that extends for the balance of the period of the original warranty. For homebuilt aircraft the warranty starts when the aircraft is certificated for flight and noted on the warranty card.
Index
*
* Pre-leaning procedure:, 23
A
Accumulate, 44
total, 33
Alarm
priority, 34
Alarm limits, 34
display, 12
Alarms, 34
Alerts, 34
Allied Signal, 45
Automatic mode, 17
Aviation data format, 53
B
Bar graph, 3, 15
column resolution, 13
Baud rate, 53
Blinking display, 21, 22, 27
Button
DIM, 12
LF, 12
RoP/LoP, 12
Buttons
front panel, 2, 11
C
Calibration
fuel level, 46
horsepower, 40, 41
internal self test, 49
K factor, 41
MAP, 40
OAT, 38
Carburetor
ice, 9
temperature, 18
Celsius
display indicator, 14
OAT, 38
Change
button, 12
Climb, 6
Compression, 9
low, 9
Compressor discharge temperature, CDT, 18
Connector
pin assignments, 52
Cowling, obstruction, 9
Cruise, 6
D
Data
GPS formats, 53
ports, GPS, 53
Delete measurements, 17
Descent, 6
Detonation, 8, 10
Diagnostic
fuel flow messages, 50
GPS interface messages, 51
self test, 49
DIF, 18
DIM, 12
Display
digital, 13
flashing, 21, 22, 27
Scanner, 13
Downloading, 35
E
EGT
loss, 8
resolution, display, 38
select switch, 33
too high, 8, 49
too low, 9, 49
Eliminate measurements, 17
Engine
diagnosis chart, 8
limits, normal, 7
run-up, 5
Error messages, 49
Exclude measurements, 17
F
Fahrenheit
display indicator, 14
OAT, 38
Failure to pre-lean, 49
Features, 5
FF, select switch, 33
First cylinder to peak, 23
First time setup, 37
Flashing display, 21, 22, 27
Flat EGT response, 8, 10
Fuel
accumulate, 33
injectors, 10
injectors, clogged, 6, 9
Octane, 10
pump, 10
remaining, 18
required, 18
reserve, 18
resetting fuel used, 33
start up, 2, 29
used, 18, 19
Fuel flow, 28
connector, 52
diagnostics messages, 50
Fuel level
calibration, 46
Full throttle, 6
G
GAMI, 19, 27
Getting started, 1
GPS
data formats, 53
data ports, 53
interface diagnostics, 51
H
Hastaloy, 27
Hobbs, 12
display, 16
Holding a button, 2, 11
Horsepower
calibration, 41
constant setting, 40
I
Ice, carburetor or induction, 9
Ignition, 10
timing, 8
Include measurements, 17
Indexing
scan rate, 38
sequence, 18
Induction
air temperature, IAT, 18
Informing the EDM-700
startup fuel, 29
Intake valve, 9
Interpreting
data, 5
display, 8
K
K factor
calibration, 43
Key card, 1, 45
K-factor
calibration, 41
L
Leanest cylinder, 21, 22
LeanFind
button, 12
procedure, 4, 19, 23
Leaning
by TIT, 27
too quickly, 49
LF. See LeanFind
Long Term Memory
operation, 35
M
Manual mode, 18
MAP
calibration, 39, 40
display, 3, 13
Measurement
indexing, 18
Miles per gallon, 18
Misapplications, 49
Missing
column, 8
Mixture, 23
MPG, MPK, MPL, MPP, 18
N
Nautical miles per gallon, 18
Navigation data formats, 53
NMEA-183, 53
NO COM, 51
NO SIG, 51
NO WPT, 51
Normal engine limits, 7
Normalize view, 14
Northstar binary format, 53
NRM, 14
O
OAT
calibration, 38
F or C, 38
Octane, 10
Off-scale EGT bars, 49
OPEN PRB, 50
Operation, 11, 17
fuel flow monitor, 28
P
Peak EGT, 23
PEAK EGT, 21, 22, 24
Pin assignments
connectors, 52
Primary, 1
preset alarm limits, 1, 45
Priority
alarm, 34
Product support, 54
R
RAD, 1, 3, 16
Range, normal temperature, 7
Rate
baud, 53
fuel flow, 28
indexing, 38
shock cooling, 6
Recording. See Long Term Memory
Red line, 7
REM, 18
Remote Auxiliary Display. See RAD, See RAD
Remove measurements, 17
REQ, 18
RES, 18
Reset
fuel used, 33
Resolution, EGT display, 38
Rich of Peak, 19
RoP/LoP
button, 12
Rough engine, 8
RPM
display, 3, 13
RS-232, 53
Run-up, 5
S
Scanner
displays, 13
Scanner®, 4
Select switch, 33
Setup, 37
Shadin Miniflow, 45
Shock cooling, 6, 52
Spark plug
fouling, 5, 8
Standard view, 14
Startup
diagnostics, 49
fuel, 2, 29
Stuck valve, 8
Switch, select, 33
T
Tachometer. See RPM
Take-off, 6
Tapping a button, 2, 11
Technical support, 54
Test, self, 49
Timing, ignition, 8
TIT, 27
Toggle, N, P, 14
Total
fuel used, 18, 19, 44
Total fuel, 33
Transducer, fuel flow, 28
Trip total, 44
Troubleshooting
engine, 8
GPS, 51
instrument, 49
Trouibleshooting
fuel flow, 50
Turbocharged Engines, 27
U
Uniform, CHT, EGT not, 9
USD, 18, 19
reset, 33
V
Valve
lifter, 9
stuck, 8
Vapor, 10
View
change diagram, 12
normalize, Standard, 14
W
Warranty, 54
Z
Zeroing fuel used, 33
Automatic Scan
1. Tap LF.
2. Tap STEP.
Exclude Measurement in Automatic Scan (toggle)
1. Tap STEP to index to the measurement to exclude.
2. Tap both STEP and LF to toggle exclude/include status.
3. Decimal point before measurement name means it is excluded from scan.
Change Scan Indexing Rate
1. Hold STEP and LF until the display shows PROGRAM, followed by Refuel?
2. Tap NEXT, see Auto Scan Rate x.
3. Tap PLUS or MINUS to change the seconds per scan: 0 to9. Note: 0 disables auto scanning.
4. Tap NEXT until you see End? Yes, then EXIT to accept and exit.
Reset USD (Fuel Used)
1. Tap STEP until x USD shown.
2. Hold both DIM and EGT/FF until .0 USD is shown.
Display Hobbs
1. Hold the LF and DIM buttons simultaneously.
Download Data in Memory
1. Insert USB Flash Drive into front USB port on EDM.
2. DOWNLOAD: NEW (latest flight) or tap CHANGE to see DOWNLOAD: ALL (all stored flights).
3. Tap STEP and wait until download progress bar completes and normal display returns.
4. Remove USB Flash Drive.
Trip Mode (Accumulate Fuel Used)
1. Hold both STEP and LF until the display shows PROGRAM, followed by Refuel?
2. Tap NEXT until you see Trip Used? No.
3. To accumulate all fuel used, tap Yes and see TRIP? Y.
4. Tap left button until you see End? Y and tap Yes to exit.
1
Refueled the Aircraft
Reset Alarm
• Temporary reset (next 10 minutes): tap STEP.
• Reset for remainder of flight: hold STEP until the words Alarm Off appears.
2
Leaning Rich of Peak
1. Pre-lean & wait 20 seconds.
2. Tap LF & see ROP.
3. Lean until LEANEST flashes, then EGT 1485 FF 12.7 appear.
4. Tap LF to see degrees lean of peak: EGT- 23 FF 12.7
5. Enrich back to rich side of peak, then set desired degrees rich of peak: EGT- 41 FF 13.9
6. If desired, hold LF to see temp & FF when peak occurred:
EGT 1534 FF 13.2
7. Tap EXIT to return to normal operation.
Leaning Lean of Peak
1. Pre-lean then wait 20 seconds.
2. Tap LF (if you see ROP, then hold STEP & LF until LOP appears).
3. Lean mixture noting that inverted columns appear.
4. Continue leaning until RICHEST flashes then
EGT -73 FF 10.4 appear.
5. Adjust mixture to desired degrees lean of peak:
EGT- 54 FF 10.9
6. If desired, hold LF to see the peak EGT of first cylinder to peak and the delta fuel flow (GAMI spread):
EGT 1560 FF 1.0
7. Tap EXIT to return to normal operation.
-----------------------
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Remote Auxiliary Display (RAD)
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Twin Center line thrust Configuration
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2 [pic]
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3 [pic]
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HOBBS Times
EDM HOBBS: 127.4
Engine HOBBS: 120.6
Flight HOBBS: 2.7
Flight Duration: 02:42:21
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IMPORTANT !
For EDM fuel calculations to be accurate, it is mandatory that you inform the EDM of the correct amount of usable fuel onboard the aircraft and confirm proper operation of the fuel flow transducer prior to and during flight. Do not rely on fuel flow instruments to determine fuel levels in tanks. Refer to original fuel flow documentation for primary fuel management information.
Example A: Aircraft has two fuel tanks with internal tabs.
Your tank capacities are: to the tabs = 66 usable
to the caps = 66+16= 82 usable
When you refuel:
‘MAIN 66.0’: use this shortcut when filling to the internal tank tabs.
‘MAIN+AUX 82.0’: use this shortcut when filling to the caps.
(only one tank is shown in each of the two scenarios)
[pic]
Example B: Aircraft has two MAIN and two AUX tanks.
Your tank capacities are: ‘MAIN = 60’ (30+30 usable)
‘AUX = 14’ (7+7 usable)
When you refuel:
‘MAIN 60.0’: use this shortcut when filling only MAIN tanks, (! AUX tanks must be empty).
‘MAIN+AUX 74.0’: use this shortcut when filling MAIN and AUX tanks.
(only one wing shown in each of the two scenarios)
[pic]
Example C: Aircraft has two MAIN tanks.
When you partially refuel, use:
‘ADJUST? +0.0’: use this to add the amount of fuel you pumped into the aircraft (it doesn’t matter which tanks you added to - the EDM totalizes ALL onboard usable fuel). In this example you will add ‘+14.0 GAL’,
%&67ABEHPthe same as your fuel slip reads. This will be added to the totalizers REM value.
[pic]
WARNING:
• Never add or remove fuel from the aircraft when the master switch is turned on.
• Fuel quantity gauge performance is affected by many factors, such as the integrity of the sensor performance, the accuracy of the calibration data you collected and entered and most importantly your validation that the EDM fuel quantity gauge is accurate and repeatable after installation and calibration. You should not use the fuel quantity gauge system for any flight related operations until this validation criteria has been met.
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